FunctionQuery allows one to use the actual value of a field and functions of those fields in a relevancy score.

What is a Function?

A function can be:

  1. A Constant (numeric or string literal) - See "constant" and "literal" below.
  2. A Field - See "fieldvalue" below. Also see notes later on multivalued/vector fields.
  3. Another Function
  4. <!> Solr4.0 A parameter substitution: $arg, where arg is another function in the request.

    • Example request: q={!func}add($v1,$v2)&v1=sqrt(popularity)&v2=100.0

Unless otherwise indicated, the term "function" or "function query" refer to normal functions that produce at most one value per document (i.e not vector functions)

Using FunctionQuery

There are a few ways to use FunctionQuery from Solr's HTTP interface:

  1. Invoke the FunctionQParserPlugin via LocalParams syntax, e.g. q={!func}log(foo)

    • Alternatively: Set func as the default query type, e.g. defType=func&q=log(foo)

  2. Invoke the FunctionRangeQParserPlugin via LocalParams syntax in a filter query, e.g. fq={!frange l=0}sub(field1,field2)

  3. Use a parameter that has an explicit type of FunctionQuery, such as DisMaxQParserPlugin's bf (boost function) parameter, or extended dismax boost parameter (multiplicative boost).

    • NOTE: the bf parameter actually takes a list of function queries separated by whitespace and each with an optional boost. Make sure to eliminate any internal whitespace in single function queries when using bf.

    • Example: q=foo&bf="ord(popularity)^0.5 recip(rord(price),1,1000,1000)^0.3"

  4. Embed a FunctionQuery in a regular query expressed in SolrQuerySyntax via the _val_ hook

If you use a function query as 'just another term' (for example, by using the special field name _val_), the value of the function becomes a component of the overall query score, just as with any other part of the query. This includes the standard normalization, which amounts (by default) to multiplying scores by a magic constant (by default, that is inverse of the square root of the sum of squared weights).

See SolrPlugins#ValueSourceParser for information on how to hook in your own FunctionQuery.

Note that a FunctionQuery currently matches all non-deleted documents.

Function Query Syntax

There is currently no infix parser - functions must be expressed as function calls (e.g. sum(a,b) instead of a+b)

Sort By Function

<!> Solr3.1

It is now possible to sort the results by the output of a function. For instance, if an application wanted to sort by distance, it could do:

http://localhost:8983/solr/select?q=*:*&sort=dist(2, point1, point2) desc

Available Functions

constant

<!> Solr1.3 Floating point constants.

literal

<!> Solr3.1 String literals. Warning: not all functions can work with string literals.

field

This function returns the numeric field value of an indexed field with a maximum of one value per document (not multiValued). The syntax is simply the field name by itself. 0 is returned for documents without a value in the field.

For non-numeric fields, fields are still evaluated to a numeric value. How this works depends on the field type:

ord

ord(myfield) returns the ordinal of the indexed field value within the indexed list of terms for that field in lucene index order (lexicographically ordered by unicode value), starting at 1. In other words, for a given field, all values are ordered lexicographically; this function then returns the offset of a particular value in that ordering. The field must have a maximum of one value per document (not multiValued). 0 is returned for documents without a value in the field.

WARNING: as of Solr 1.4, ord() and rord() can cause excess memory use since they must use a FieldCache entry at the top level reader, while sorting and function queries now use entries at the segment level. Hence sorting or using a different function query, in addition to ord()/rord() will double memory use.

WARNING: ord() depends on the position in an index and can thus change when other documents are inserted or deleted, or if a MultiSearcher is used.

rord

The reverse ordering of what ord provides.

WARNING: as of Solr 1.4, ord() and rord() can cause excess memory use since they must use a FieldCache entry at the top level reader, while sorting and function queries now use entries at the segment level. Hence sorting or using a different function query, in addition to ord()/rord() will double memory use.

sum

<!> Solr1.3 sum(x,y,...) returns the sum of multiple functions.

sub

<!> Solr1.4 sub(x,y) returns x-y

product

<!> Solr1.3 product(x,y,...) returns the product of multiple functions.

div

<!> Solr1.3 div(x,y) divides the function x by the function y.

mod

<!> Solr4.0 mod(x,y) computes the modulus of the function x by the function y.

pow

<!> Solr1.3 pow(x,y) raises the base x to the power y.

abs

<!> Solr1.3 abs(x) returns the absolute value of a function.

log

<!> Solr1.3 log(x) returns log base 10 of the function x.

sqrt

<!> Solr1.3 sqrt(x) returns the square root of the function x

map

<!> Solr1.3 map(x,min,max,target) with <!> Solr1.4 map(x,min,max,target,value) maps any values of the function x that fall within min and max inclusive to target. min,max,target,value are constants. It outputs the field's value (or "value") if it does not fall between min and max.

Also, if x=NULL, it will also match min of 0.

scale

<!> Solr1.3 scale(x,minTarget,maxTarget) scales values of the function x such that they fall between minTarget and maxTarget inclusive.

query

<!> Solr1.4 query(subquery, default) returns the score for the given subquery, or the default value for documents not matching the query. Any type of subquery is supported through either parameter dereferencing $otherparam or direct specification of the query string in the LocalParams via "v".

These examples assume '&defType=func', since they just have a function in the Q parameter.

currency

<!> Solr4.2 currency(field_name,[CODE]) is a function that can operate on any field_name that is implemented as CurrencyField. Unlike the raw values generated when using a currency field direction as input to another function, the currency() function can be used to return human readable values in either the default currency configured for the field type, or an arbitrary currency specified in the function.

See CurrencyField for more details.

linear

linear(x,m,c) implements m*x+c where m and c are constants and x is an arbitrary function. This is equivalent to sum(product(m,x),c), but slightly more efficient as it is implemented as a single function.

recip

A reciprocal function with recip(x,m,a,b) implementing a/(m*x+b). m,a,b are constants, x is any numeric field or arbitrarily complex function.

When a and b are equal, and x>=0, this function has a maximum value of 1 that drops as x increases. Increasing the value of a and b together results in a movement of the entire function to a flatter part of the curve. These properties can make this an ideal function for boosting more recent documents when x is rord(datefield).

<!> Solr1.4 In Solr 1.4 and later, best practice is to avoid ord() and rord() and derive the boost directly from the value of the date field. See ms() for more details.

max

max(x,c) returns the max of another function and a constant. Useful for "bottoming out" another function at some constant.

As of Solr3.2 max no longer requires a constant, arguments can be arbitrary functions.

min

Solr3.2

min(x,y) returns the minimum of two functions.

ms

<!> Solr1.4

Returns milliseconds of difference between it's arguments.

Dates are relative to the Unix or POSIX time epoch, midnight, January 1, 1970 UTC.

Arguments may be numerically indexed date fields such as TrieDate (recommended field type for dates since Solr 1.4), or date math (examples in SolrQuerySyntax) based on a constant date or NOW.

Things other than these will _not_ work as arguments. For example, you cannot currently use:

Arguments may _not_ be "classic" date fields

ms()

ms(a)

Note that this number can be negative for dates from before the epoch.

ms(a,b)

ms(foofield) currently (Chris Harris, 4/16/2010) returns the value 0 for docs with nonexistent foofield. Should this behavior be relied on?

Date Boosting

Boosting more recent content is a common use case. One way is to use a recip function in conjunction with ms.

There are approximately 3.16e10 milliseconds in a year, so one can scale dates to fractions of a year with the inverse, or 3.16e-11. Thus the function recip(ms(NOW,mydatefield),3.16e-11,1,1) will yield values near 1 for very recent documents, 1/2 for documents a year old, 1/3 for documents two years old, etc. Be careful to not use this function for dates more than one year in the future or the values will be negative.

Consider using reduced precision to prevent excessive memory consumption. You would instead use recip(ms(NOW/HOUR,mydatefield),3.16e-11,1,1). See this thread for more information.

The most effective way to use such a boost is to multiply it with the relevancy score, rather than add it in. One way to do this is with the boost query parser.

Also see http://wiki.apache.org/solr/SolrRelevancyFAQ#How_can_I_boost_the_score_of_newer_documents

Math.*

<!> Solr3.1

Most Java Math functions are now supported, including:

  1. rad - convert degrees to radians
  2. deg- convert radians to degrees
  3. sqrt - square root
  4. cbrt - cube root
  5. log - base10 log
  6. ln - natural log
  7. exp - Euler's number raised to a power
  8. sin - trigonometric sine of an angle in radians
  9. cos - cosine of an angle
  10. tan - tangent of an angle
  11. asin - arc sine
  12. acos - arc cosine
  13. atan- arc tangent
  14. sinh - hyperbolic sine
  15. cosh - hyperbolic cosine
  16. tanh - hyperbolic tangent
  17. ceil - ceiling, rounds up to an integer
  18. floor - rounds down to an integer
  19. rint - rounds to the nearest integer
  20. pow(x,y) - raises x to the power of y (x**y)
  21. hypo(x,y) - returns sqrt(x**2+y**2) without intermediate overflow or underflow
  22. atan2(x,y) - returns the angle resulting from the conversion of the rectangular coordinates x,y to polar coordinates
  23. pi() - returns the closest approximation of pi, the ratio of the circumference of a circle to its diameter
  24. e() - returns the closest approximation to e, the base of the natural logarithm

See the java.util.Math javadocs for more details.

Relevance Functions

Solr4.0

Relevancy functions that take terms can use a bare term if it's a simple word

Can optionally quote the term if it's more complex

And can even do parameter substitution for the term value

docfreq

docfreq(field,term) returns the number of documents that contain the term in the field. This is a constant (the same value for all documents in the index).

termfreq

termfreq(field,term) returns the number of times the term appears in the field for that document.

totaltermfreq

totaltermfreq(field,term) returns the number of times the term appears in the field in the entire index. ttf is an alias of totaltermfreq.

sumtotaltermfreq

sumtotaltermfreq(field) returns the sum of totaltermfreq values for all terms in the field in the entire index (i.e. the number of indexed tokens for that field). sttf is an alias of sumtotaltermfreq.

idf

idf(field,term) returns the inverse document frequency for the given term, using the Similarity for the field.

tf

tf(field,term) returns the term frequency factor for the given term, using the Similarity for the field.

norm

norm(field) returns the "norm" stored in the index, the product of the index time boost and then length normalization factor, according to the [[http://lucene.apache.org/java/3_0_0/api/core/org/apache/lucene/search/Similarity.html|Similarity] for the field.

maxdoc

maxdoc() returns the number of documents in the index, including those that are marked as deleted but have not yet been purged. This is a constant (the same value for all documents in the index).

numdocs

numdocs() returns the number of documents in the index, not including those that are marked as deleted but have not yet been purged. This is a constant (the same value for all documents in the index).

Boolean Functions

<!> Solr4.0

These are functions which helps do boolean logic acting on true/false and conditions. Note that they do not only work for pure true/false values but interpret 0 as false and positive number as true.

true

true returns true

false

false returns false

exists

exists(field|function) returns true if a value exists for a given document.

Example use: exists(myField) will return true if myField has a value, while exists(query({!v='year:2012'})) will return true for docs with year=2012.

if

if(expression,trueValue,falseValue) emits trueValue if the expression is true, else falseValue. An expression can be any function which outputs boolean values, or even functions returning numeric values, in which case value 0 will be interpreted as false, or strings, in which case empty string is interpreted as false.

Example use: if(exists(myField),100,0) returns 100 if myField exists

def

def(field|function,defaultValue) returns the value of field "field", or if the field does not exist, returns the defaultValue specified.

Example use: def(rating,5) The def() function will here return the rating, or if no rating specified in the doc, returns 5

not

not(function|field) returns the inverse of expression.

Examples: not(true) returns false, not(inStock)) returns true (or 1.0) for docs with inStock=false, and false (or 0.0) for the others.

and

and(x,y) returns true if both x and y are true

or

or(x,y) returns true if either x or y are true

dist

Solr3.1

Return the Distance between two Vectors (points) in an n-dimensional space. See http://en.wikipedia.org/wiki/Lp_space for more information. Takes in the power, plus two or more ValueSource instances and calculates the distances between the two vectors. Each ValueSource must be a number. There must be an even number of ValueSource instances passed in and the method assumes that the first half represent the first vector and the second half represent the second vector.

Signature: dist(power, pointA, pointB, ...)

Common cases:

Example: Assume each document has 4 numeric fields: x,y,z,w. Then we can calculate various distances:

  1. dist(2, x, y, 0, 0) - calculates the Euclidean distance between (0,0) and (x,y) for each document
  2. dist(1, x, y, 0, 0) - calculates the Manhattan distance between (0,0) and (x,y) for each document
  3. dist(2, x,y,z,0,0,0) - Euclidean distance between (0,0,0) and (x,y,z) for each document.
  4. dist(1,x,y,z,e,f,g) - Euclidean distance between (x,y,z) and (e,f,g) where each letter is a field name

See Solr's SpatialSearch for easy to use geospatial search features.

sqedist - Squared Euclidean Distance

Solr3.1

Similar to the dist() function, the Sq. Euclidean distance calculates the 2-norm (Euclidean distance) but does not take the square root, thus saving a fairly expensive operation. It is often the case that applications that care about Euclidean distance do not need the actual distance, but instead can use the square of the distance. See also dist(). There must be an even number of ValueSource instances passed in and the method assumes that the first half represent the first vector and the second half represent the second vector.

Signature: sqedist(pointA, pointB, ...)

Example: sqedist(x_td, y_td, 0, 0)

hsin, ghhsin - Haversine Formula

Solr3.1

The Haversine distance calculates the distance between two points on a sphere when traveling along the sphere. In other words, it's the Great Circle distance. See http://en.wikipedia.org/wiki/Great-circle_distance. In the case of GeohashHaversine, the sources must be a geohash value.

Values must be in Radians. See the rad() function. Please note Haversine distance has known problems with antipodal values. See the Wikipedia page for details.

Signature: hsin(radius, true|false, x1,y1,x2,y2), ghhsin(radius, hash1, hash2) The boolean value determines whether hsin will automatically convert the input values from degrees to radians.

Example: hsin(2, true, x, y, 0, 0) - Calculate the haversine distance between the lat/lon 0, 0 on a sphere of radius 2 and the values in field x,y, converting the values automatically to radians.

See Solr's SpatialSearch for easy to use geospatial search features.

geohash - Convert to geohash

Given a latitude and longitude (in degrees, not radians), convert them to a Geohash. See http://en.wikipedia.org/wiki/Geohash.

Signature: geohash(ValueSource, ValueSource)

Example: geohash(lat, lon)

strdist

Solr3.1

Calculate the distance between two strings. Uses the Lucene spell checker StringDistance interface and supports all of the implementations available in that package, plus allows applications to plug in their own via Solr's resource loading capabilities.

The third argument is the name of the distance measure to use. The abbreviations stand for:

  1. jw - Jaro-Winkler
  2. edit - Levenstein or Edit distance
  3. ngram - The NGramDistance, if specified, can optionally pass in the ngram size too. Default is 2.
  4. FQN - Fully Qualified class Name for an implementation of the StringDistance interface. Must have a no-arg constructor.

This function returns a float between 0 and 1 based on how similar the specified strings are to one another. Returning a value of 1 means the specified strings are identical and 0 means the string are maximally different.

top

<!> Solr1.4 Causes it's function query argument to derive it's values from the top-level IndexReader containing all parts of an index. For example, the ordinal of a value in a single segment will be different from the ordinal of that same value in the complete index. The ord() and rord() functions implicitly use top() and hence ord(foo) is equivalent to top(ord(foo)).

General Example

To give more idea about the use of the function query, suppose index stores dimensions in meters x, y,z of some hypothetical boxes with arbitrary names stored in field boxname. Suppose we want to search for box matching name findbox but ranked according to volumes of boxes, the query params would be:

  q=boxname:findbox+_val_:"product(product(x,y),z)"

Although this will rank the results based on volumes but in order to get the computed volume you will need to add parameter...

  &fl=*,score

...where score will contain the resultant volume.

Suppose you also have a field containing weight of the box as 'weight', then to sort by the density of the box and return the value of the density in score you query should be...

http://localhost:8983/solr/select/?q=boxname:findbox+_val_:"div(weight,product(product(x,y),z))"&fl=boxname,x,y,z,weight,score

Vector Functions

Until Solr3.1, all functions were single valued. Since Solr31., it is now possible for functions to use multiple values as part of a function calculation. There is not yet support for fields that have more than one token, but it is possible to aggregate multiple single value fields into a vector.

vector

Takes in one or more single sources (i.e. all the stuff above) and creates a vector source.

Signature: vector(x,y,z)

Distances

dist(), hsine() and sqedist() can work with vector functions (implemented in Java via MultiValueSource )

FunctionQuery (last edited 2013-05-08 19:15:00 by HossMan)